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Optimize Quantum circuits towards simulatability
Quantum Circuit Simulation
Quantum circuit simulation is essential for advancing quantum computing by allowing researchers to model and test quantum systems without needing physical quantum hardware. It enables the exploration of complex algorithms, error correction, and optimization strategies in a controlled environment. Simulations also help validate quantum hardware, ensuring its accuracy and reliability before deployment.Overview task:
- Identity optimizations criteria.
- Optimize using zx calculus librarys(rust or c++).
- If done as Master's thesis, zx calculus libraries parallelization potential.
- Implementation of extraction algorithm.
Prerequisites:
- Understanding quantum computing (e.g. acquired from participation in the lecture Intoduction to Quantum Computing)
- Understanding parrallel programming (e.g. acquired from participation in the lecture Parallel and High Performance Computing)
- Programming knowledge in c++
Get in touch:
If you are interested in the topic, write a short email with your motivation and what prerequisites you fulfill or do not fulfill, to Florian Krötz, florian.kroetz@nm.ifi.lmu.de If you have questions, don't hesitate to contact me.Duration:
- Bachelor thesis: 3 month
Supervisor:
Aufgabensteller:
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